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Quiet Cooling With a Copper Foam Heatsink

Posted by Soulskill on from the doubles-as-a-dish-scraper dept.

Zothecula writes: The Silent Power PC is claimed to be the first high-end PC able to ditch noisy electric fans in favor of fully passive cooling. In place of a conventional fan, the unit uses an open-air metal foam heatsink that boasts an enormous surface area thanks to the open-weave copper filaments of which it's composed. The Silent Power creators claim that the circulation of air through the foam is so efficient in dissipating heat that the exterior surface temperature never rises above 50 C (122 F) in normal use.

3 of 171 comments (clear)

  1. Perfect by sammyo · · Score: 5, Insightful

    ... for a dust free room!

  2. Efficient? by msauve · · Score: 4, Insightful

    "the foam is so efficient in dissipating heat that the exterior surface temperature never rises above 50 C (122 F) in normal use."

    Hey, I can glue a chunk of styrofoam on a CPU, and the outside of it won't even get that hot. I wouldn't use that fact to claim that styrofoam makes a great heatsink, though. Quite the opposite.

    --
    "National Security is the chief cause of national insecurity." - Celine's First Law
  3. Hmmm... by fuzzyfuzzyfungus · · Score: 4, Insightful

    With finned heat sinks, one of the limits on size was that the comparatively low conductivity of the fin material made surface area increasingly unhelpful as you got further from the heat source. Especially with paper-thin lightweight aluminum you could just keep making them bigger; but much of the fin would be essentially wasted because the delta-T between the more distant areas of fin and the source of the heat would be so high. Plenty of heat exchange surface; but not much heat making it out that far.

    This is why more or less all contemporary heatsinks started embedding heatpipes some time ago, since that was the only way to get a reasonable amount of heat to the more distant parts of the heatsink.

    This 'sponge' is more aesthetically interesting; but I see a lot of surface area that is only tenuously connected to the actual heat source. Newer Intel silicon just doesn't pump out the watts the way the old stuff did, so it might actually work; but I'd be shocked it if works any better than a much more prosaic heatpipe-and-fins design.